Silas Mallon scite author profile

The present work aims to investigate the bulk deformation and failure response of closed-cell Polymeric Methylene Diphenyl Diisocyanate (PMDI) foams subjected to dynamic impact loading. First, foam specimens of different initial densities are examined and characterized in quasi-static loading conditions, where the deformation behavior of the samples is quantified in terms of the compressive elastic modulus and effective plastic Poisson's ratio. Then, the deformation response of the foam specimens subjected to direct impact loading is examined by taking into account the effects of material compressibility and inertia stresses developed during deformation, using high speed imaging in conjunction with 3D digital image correlation. The stress-strain response and the energy absorption as a function of strain rate and initial density are presented and the bulk failure mechanisms are discussed. It is observed that the initial density of the foam and the applied strain rates have a substantial influence on the strength, bulk failure mechanism and the energy dissipation characteristics of the foam specimens.

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Analysis of dynamic bending test using ultra high speed DIC and the virtual fields method

Koohbor

Kidane

Sutton

et al. 2017

International Journal of Impact Engineering

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A DIC-based study of in-plane mechanical response and fracture of orthotropic carbon fiber reinforced composite

Koohbor

Mallon

Kidane

2014

Composites Part B: Engineering

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Fracture Behavior of Prestressed Composites Subjected to Shock Loading: A DIC-Based Study

et al. 2014

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Through Thickness Elastic Profile Determination of Functionally Graded Materials

et al. 2015

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Silas Mallon

The deformation and failure response of closed-cell PMDI foams subjected to dynamic impact loading

Analysis of dynamic bending test using ultra high speed DIC and the virtual fields method

A DIC-based study of in-plane mechanical response and fracture of orthotropic carbon fiber reinforced composite

Fracture Behavior of Prestressed Composites Subjected to Shock Loading: A DIC-Based Study

Through Thickness Elastic Profile Determination of Functionally Graded Materials

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